Resource configuration method for switching, network access point and mobile station

ABSTRACT

Provided are a resource configuration method for switching, a network access point and a mobile station. The method comprises: a first network access point determining switching resource configuration information with a second network access point; the first network access point sending the switching resource configuration information to a mobile station; and the first network access point receiving switching indication information sent by the mobile station, wherein the switching indication information is used for indicating that the mobile station is to switch. In the embodiments of the present invention, by utilizing the feature that the movement of a mobile station has a predictable directionality, and by introducing the concept of a switching resource and coordinating the switching resource between network access points in advance, the switching resource can be used for switching when the mobile station needs switching, thereby reducing the switching interrupt time.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application claims priority to PCT Patent Application No.PCT/CN2016/073675, entitled “Resource Configuration Method for Handover,Network Access Point and Mobile station,” filed before the Patent Officeof the People's Republic of China on Feb. 5, 2016, the contents of whichare hereby incorporated by reference in its entirety.

TECHNICAL FIELD

Embodiments of the disclosure relate to the field of communications, andmore particularly, to a resource configuration method for handover, anetwork access point (AP) and a mobile station.

BACKGROUND

An application field of a network system in the future will be extendedto Vehicle to X (V2X) communication, including Vehicle to Vehicle (V2V)communication, Vehicle to Infrastructure (V2I) communication, Vehicle toPedestrian (V2P) communication, Pedestrian to Vehicle (P2V)communication and the like.

V2X communication may effectively improve traffic efficiency, avoidtraffic accidents and reduce operation risks. Researches show that V2Vcommunication may solve about 82% of collisions without casualties andabout 40% of collisions occurring at crossroads in the United States.

In a V2X communication process, a vehicle is required to keep connectionwith a network all the time to effectively receive information of anetwork side, ensure resource allocation reliability and improve datatransmission efficiency. However, in some scenarios, for example, thereis no network coverage, vehicles usually communicate according topreconfigured resources, so that it is impossible to ensure orderedinformation interaction of a large number of connected vehicles, andresource utilization efficiency of a wireless network is reduced to agreat extent. Therefore, V2X communication in the future will exist onthe basis of vehicle-to-network communication in a biggest range, and itis necessary to ensure smooth connections between vehicles and networksto ensure ordered scheduling and resource allocation of the networks forthe vehicles.

In such a process, a vehicle keeps moving and may be faster in somescenarios, so that how to ensure smooth and successful handover of thevehicle between different network APs becomes a key problem urgent to besolved.

A mechanism capable of ensuring handover exists in a conventionalcellular network. However, there exists a longer transmissioninterruption delay in an existing handover flow, and a transient channelchange problem for a mobile station which moves fast and the like maynot be effectively solved.

SUMMARY

The embodiments of the disclosure provide a resource configurationmethod for handover, which may ensure normal communication of a mobilestation in a handover process.

In a first aspect, there is provided a resource configuration method forhandover, which may include that: a first network AP determines handoverresource configuration information with a second network AP; the firstnetwork AP sends the handover resource configuration information to amobile station; and the first network AP receives handover indicationinformation from the mobile station, the handover indication informationindicating that the mobile station will be handed over.

The mobile station in the embodiments of the disclosure may be terminalequipment in V2X, then the characteristic of predictable directionalityof movement of the V2X mobile station may be utilized, a concept ofhandover resource is introduced, a handover resource is coordinatedbetween the network APs in advance, and when the V2X mobile stationrequires handover, the handover resource may be used for handover. Insuch a manner, a target cell (i.e., the second network AP) may beconfigured before handover of the V2X mobile station, thereby reducing ahandover interruption time.

In a possible implementation of the first aspect, after the operationthat the first network AP receives the handover indication informationfrom the mobile station, the method may further include that: the firstnetwork AP sends first indication information to the mobile station, thefirst indication information indicating the mobile station tocommunicate with the first network AP and/or the second network AP byusing a configuration indicated by the handover resource configurationinformation.

In a possible implementation of the first aspect, the method may furtherinclude that: the first network AP receives identification informationof the second network AP from the mobile station; and the first networkAP determines that the mobile station will be handed over to the secondnetwork AP according to the handover indication information and theidentification information.

In the solution, the mobile station may determine a target network APaccording to a practical condition and notify the target network AP(i.e., the second network AP) of the mobile station to the first networkAP through the identification information and the handover indicationinformation, and the terminal equipment may be handed over anytime whenbeing required. This solution is high in flexibility and may furtherreduce a terminal handover time.

In a possible implementation of the first aspect, the operation that thefirst network AP sends the first indication information to the mobilestation may include that: when it is determined that the mobile stationwill be handed over from the first network AP to the second network AP,the first indication information is sent to the mobile station.

In the solution, the mobile station may notify its own requirement tothe first network AP through the handover indication information toenable the first network AP to send the first indication information tothe mobile station, and the mobile station may communicate according tothe first indication information. This solution is high in flexibility,high in compatibility and favorable such that the first network APdetermines a proper target network AP for the mobile station.

In a possible implementation of the first aspect, before the operationthat the first indication information is sent to the mobile station, themethod may further include that: it is determined that the mobilestation will be handed over from the first network AP to the secondnetwork AP according to a moving trajectory of the mobile station; it isdetermined that the mobile station will be handed over from the firstnetwork AP to the second network AP according to strength of ameasurement signal reported by the mobile station; and it is determinedthat the mobile station will be handed over from the first network AP tothe second network AP according to the moving trajectory and movingspeed of the mobile station.

In a possible implementation of the first aspect, the first indicationinformation may be indicated by one or more reserved information bits ofphysical-layer control signaling; or the first indication informationmay be indicated by a new allocated Radio Network Temporary Identity(RNTI); or the first indication information may be indicated by a newphysical-layer control signaling format.

In a possible implementation of the first aspect, the handoverindication information may be indicated by one or more reservedinformation bits of the physical-layer control signaling; or thehandover indication information may be indicated by Media Access Control(MAC)-layer signaling; or the handover indication information may beindicated by Radio Resource Control (RRC) signaling.

In a possible implementation of the first aspect, the operation that thefirst network AP determines the handover resource configurationinformation with the second network AP may include that: the firstnetwork AP performs coordination with the second network AP through acommunication interface between the first network AP and the secondnetwork AP to determine the handover resource configuration information.

In a possible implementation of the first aspect, the handover resourceconfiguration information may include at least one of: locationinformation of a physical time-frequency resource block, modulation andcoding scheme information, configuration information of a referencesignal or antenna configuration information.

In a possible implementation of the first aspect, the operation that thefirst network AP sends the handover resource configuration informationto the mobile station may include that: when the mobile station accessesto the first network AP, the handover resource configuration informationis sent to the mobile station; or after the mobile station accesses tothe first network AP, the handover resource configuration information issent to the mobile station; or when it is determined that the mobilestation will be handed over from the first network AP to the secondnetwork AP, the handover resource configuration information is sent tothe mobile station.

In a possible implementation of the first aspect, the operation that thehandover resource configuration information is sent to the mobilestation may include that: the handover resource configurationinformation is sent to the mobile station through a system informationbroadcast; or the handover resource configuration information is sent tothe mobile station through control signaling.

In a possible implementation of the first aspect, the method may furtherinclude that: uplink data sent by the mobile station via the handoverresource is received.

In a possible implementation of the first aspect, the operation that theuplink data sent by the mobile station via the handover resource isreceived may include that: the first network AP performs coordinationwith at least one other network AP to receive the uplink data sent bythe mobile station via the handover resource.

In a possible implementation of the first aspect, the first network APand the at least one other network AP may use completely the same orcompletely different physical resource configuration information toreceive the uplink data sent by the mobile station via the handoverresource.

In a possible implementation of the first aspect, the at least one othernetwork AP may include the second network AP.

In a possible implementation of the first aspect, the operation that theuplink data sent by the mobile station via the handover resource isreceived may include that:

a plurality of uplink data packets which are the same are received fromthe mobile station, one uplink data packet is determined to be an uplinkreceived data packet, and uplink data in the uplink received data packetis acquired.

In a possible implementation of the first aspect, the method may furtherinclude that: the first network AP sends downlink data to the mobilestation.

In a possible implementation of the first aspect, the operation that thedownlink data is sent to the mobile station may include that: the firstnetwork AP performs coordination with at least one other network AP tosend the downlink data to the mobile station.

In a possible implementation of the first aspect, the first network APand the at least one other network AP may use completely the same orcompletely different physical resource configuration information to sendthe downlink data to the mobile station.

In a possible implementation of the first aspect, the at least one othernetwork AP may include the second network AP.

In a possible implementation of the first aspect, the operation that thedownlink data is sent to the mobile station may include that: aplurality of downlink data packets which are the same are sent to themobile station to enable the mobile station to determine one of theplurality of downlink data packets as a downlink received data packetand acquire downlink data in the downlink received data packet.

In a possible implementation of the first aspect, the first network APmay be synchronized with the second network AP, or there may be a firstfixed timing offset value between the first network AP and the secondnetwork AP.

In a possible implementation of the first aspect, the first network APmay be synchronized with the mobile station, or there may be a secondfixed timing offset value between the first network AP and the mobilestation.

In a possible implementation of the first aspect, the method may furtherinclude that: the first network AP sends second indication informationto the mobile station, wherein the second indication information mayinclude at least one of: synchronization information between the firstnetwork AP and the second network AP, speed information of the mobilestation or moving trajectory information of the mobile station.

In a second aspect, there is provided a resource configuration methodfor handover, which may include that: a mobile station acquires handoverresource configuration information sent by a first network AP; themobile station sends handover indication information to the firstnetwork AP, the handover indication information indicating that themobile station will be handed over; and the mobile station communicateswith the first network AP and/or a second network AP by using aconfiguration indicated by the handover resource configurationinformation.

In a possible implementation of the second aspect, the method mayfurther include that: the mobile station receives first indicationinformation, which is sent by the first network AP according to thehandover indication information, the first indication informationindicating the mobile station to use the configuration indicated by thehandover resource configuration information; and the operation that themobile station communicates with the first network AP and/or the secondnetwork AP by using the configuration indicated by the handover resourceconfiguration information may include that: the mobile stationcommunicates with the first network AP and/or the second network AP byusing the configuration indicated by the handover resource configurationinformation according to the first indication information.

In a possible implementation of the second aspect, the method mayfurther include that: the mobile station sends identificationinformation of the second network AP to the first network AP such thatthe first network AP determines that the mobile station will be handedover to the second network AP according to the identificationinformation and the handover indication information.

In a possible implementation of the second aspect, the operation thatthe mobile station sends the handover indication information to thefirst network AP may include that: if the mobile station determines thatthe mobile station will be handed over, the handover indicationinformation is sent to the mobile station.

In a possible implementation of the second aspect, the method mayfurther include that: the mobile station determines whether the mobilestation will be handed over according to a moving trajectory of themobile station; or the mobile station determines whether the mobilestation will be handed over according to strength of a signal receivedfrom the first network AP; or the mobile station determines whether themobile station will be handed over according to the moving trajectoryand moving speed of the mobile station.

In a possible implementation of the second aspect, the first indicationinformation may be indicated by one or more reserved information bits ofphysical-layer control signaling; or the first indication informationmay be indicated by a new allocated RNTI; or the first indicationinformation may be indicated by a new physical-layer control signalingformat.

In a possible implementation of the second aspect, the handoverindication information may be indicated by one or more reservedinformation bits of the physical-layer control signaling; or thehandover indication information may be indicated by MAC-layer signaling;or the handover indication information may be indicated by RRCsignaling.

In a possible implementation of the second aspect, the operation thatthe mobile station acquires the handover resource configurationinformation sent by the first network AP may include that: when themobile station accesses to the first network AP, the handover resourceconfiguration information sent by the first network AP is received; orafter the mobile station accesses to the first network AP, the handoverresource configuration information sent by the first network AP isreceived; or when the mobile station will be handed over from the firstnetwork AP to the second network AP, the handover resource configurationinformation sent by the first network AP is received.

In a possible implementation of the second aspect, the handover resourceconfiguration information may be sent by the first network AP through asystem information broadcast; or the handover resource configurationinformation may be sent by the first network AP through controlsignaling.

In a possible implementation of the second aspect, the operation thatthe mobile station communicates with the first network AP and/or thesecond network AP may include that: the mobile station sends uplink datavia the handover resource to enable the first network AP and/or thesecond network AP to receive the uplink data.

In a possible implementation of the second aspect, the operation thatthe mobile station sends the uplink data via the handover resource mayinclude that: the mobile station adopts a preset Cyclic Prefix (CP)value to send the uplink data via the handover resource to enable theuplink data to reach the first network AP and the second network AP atthe same time, wherein the preset CP value may be larger than a fixedthreshold value.

In a possible implementation of the second aspect, the operation thatthe mobile station communicates with the first network AP and/or thesecond network AP may include that: the mobile station receives downlinkdata sent by the first network AP and/or the second network AP via thehandover resource.

In a possible implementation of the second aspect, the operation thatthe mobile station receives the downlink data sent by the first networkAP and/or the second network AP via the handover resource may includethat: the mobile station receives a plurality of downlink data packetswhich are the same from the first network AP and/or the second networkAP; one of the plurality of downlink data packets which are the same isdetermined to be a downlink received data packet; and downlink data inthe downlink received data packet is acquired.

In a possible implementation of the second aspect, the mobile stationmay be synchronized with the first network AP, or there may be a secondfixed timing offset value between the mobile station and the firstnetwork AP.

In a possible implementation of the second aspect, the handover resourceconfiguration information may include at least one of: locationinformation of a physical time-frequency resource block, modulation andcoding scheme information, configuration information of a referencesignal or antenna configuration information.

In a possible implementation of the second aspect, the method mayfurther include that: the mobile station receives second indicationinformation sent by the first network AP, the second indicationinformation including at least one of: synchronization informationbetween the first network AP and the second network AP, speedinformation of the mobile station or moving trajectory information ofthe mobile station; and the mobile station acquires uplinksynchronization information of the second network AP according to thesecond indication information.

In a third aspect, there is provided a network AP, which is a firstnetwork AP and includes a determination unit configured to determinehandover resource configuration information with a second network AP; asending unit configured to send the handover resource configurationinformation determined by the determination unit to a mobile station;and a receiving unit configured to receive handover indicationinformation from the mobile station, the handover indication informationindicating that the mobile station will be handed over. The network APmay be configured to execute each process executed by the first networkAP in the first aspect or any implementation of the first aspect.

In a fourth aspect, there is provided a network AP, which includes asender, a receiver, a processor and a memory. The network AP may beconfigured to execute each process executed by the first network AP inthe method of the first aspect and the implementations thereof.

In a fifth aspect, there is provided a computer-readable storage medium,the computer-readable storage medium stores a program, and the programenables a network AP to execute any resource configuration method forhandover in the first aspect and various implementations thereof.

In a sixth aspect, there is provided a mobile station, which includes anacquisition unit configured to acquire handover resource configurationinformation sent by a first network AP; a sending unit configured tosend handover indication information to the first network AP, thehandover indication information indicating that the mobile station willbe handed over; and a communication unit configured to communicate withthe first network AP and/or a second network AP by using a configurationindicated by the handover resource configuration information. The mobilestation may be configured to execute each process executed by the mobilestation in the second aspect or any implementation of the second aspect.

In a seventh aspect, there is provided a mobile station, which includesa sender, a receiver, a processor and a memory. The mobile station maybe configured to execute each process executed by the mobile station inthe second aspect or any implementation of the second aspect.

In an eighth aspect, there is provided a computer-readable storagemedium, the computer-readable storage medium stores a program, and theprogram enables a mobile station to execute any resource configurationmethod for handover in the second aspect and various implementationsthereof.

Optionally, the handover resource configuration information may includeat least one of: the location information of the physical time-frequencyresource block, the modulation and coding scheme information, theconfiguration information of the reference signal and the antennaconfiguration information.

Optionally, the first indication information may be indicated by thereserved information bit of the physical-layer control signaling; or thefirst indication information may be indicated by the new allocated RNTI;or the first indication information may be indicated by the newphysical-layer control signaling format.

Optionally, the control signaling or the physical-layer controlsignaling may be a Physical Downlink Control Channel (PDCCH).

Optionally, the first network AP may be synchronized with the secondnetwork AP, or there may be the first fixed timing offset value betweenthe first network AP and the second network AP.

Optionally, the first network AP may be synchronized with the mobilestation, or there may be the second fixed timing offset value betweenthe first network AP and the mobile station.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic diagram illustrating a handover process of amobile station according to an embodiment of the disclosure.

FIG. 2 is a schematic flowchart illustrating an example of a resourceconfiguration method for handover according to an embodiment of thedisclosure.

FIG. 3 is a schematic flowchart illustrating another example of aresource configuration method for handover according to anotherembodiment of the disclosure.

FIG. 4 is a schematic flowchart illustrating another example of aresource configuration method for handover according to anotherembodiment of the disclosure.

FIG. 5 is a schematic block diagram illustrating an example of a networkAP according to an embodiment of the disclosure.

FIG. 6 is a schematic block diagram illustrating another example of anetwork AP according to another embodiment of the disclosure.

FIG. 7 is a schematic block diagram illustrating an example of a mobilestation according to an embodiment of the disclosure.

FIG. 8 is a schematic block diagram illustrating another example of amobile station according to another embodiment of the disclosure.

DETAILED DESCRIPTION

The technical solutions in the embodiments of the disclosure will beclearly and completely described below in conjunction the drawings inthe embodiments of the disclosure. It is apparent that the describedembodiments are not all embodiments but part of embodiments of thedisclosure. All other embodiments obtained by those skilled in the arton the basis of the embodiments in the disclosure without creative workshall fall within the scope of protection of the disclosure.

Various embodiments of the disclosure are described in conjunction witha mobile station. The mobile station may also be called as UserEquipment (UE), terminal equipment, an access terminal, a user unit, auser station, a mobile radio station, a remote station, a remoteterminal, mobile equipment, a user terminal, a terminal, wirelesscommunication equipment, a user agent, a user device or the like. Themobile station may be a station in a Wireless Local Area Network (WLAN),and may be a cell phone, a cordless phone, a Session Initiation Protocol(SIP) phone, a Wireless Local Loop (WLL) station, a Personal DigitalAssistant (PDA), handheld equipment with a wireless communicationfunction, computing equipment, other processing equipment connected to awireless modem, vehicle-mounted equipment, wearable equipment, a mobilestation in a future 5th-Generation (5G) network, a mobile station in afuture evolved Public Land Mobile Network (PLMN) or the like. Forexample, the mobile station in the embodiments of the disclosure may bean On Board Unit (OBU) mounted on a vehicle.

In addition, various embodiments of the disclosure are described incombination with network equipment. The network equipment may beequipment configured to communicate with the mobile station, and thenetwork equipment may be an AP in the WLAN, a Base Transceiver Station(BTS) in a Global System for Mobile Communication (GSM) or Code DivisionMultiple Access (CDMA), may also be allodeB (NB) in Wideband CodeDivision Multiple Access (WCDMA), and may further be an Evolutional NodeB (eNB or eNodeB) in Long Term Evolution (LTE), or a relay station orAP, or vehicle-mounted equipment, wearable equipment, network equipmentin the future 5G network, network equipment in the future evolved PLMNor the like.

In addition, various aspects or characteristics of the embodiments ofthe disclosure may be implemented into a method, a device or a productprogrammed with a standard and/or using an engineering technology. Term“product” used in the application covers a computer program which may beaccessed from any computer-readable device, carrier or medium. Forexample, the computer-readable medium may include, but not limited to: amagnetic storage device (for example, a hard disk, a floppy disk or amagnetic tape), an optical disk (for example, a Compact Disk (CD) and aDigital Versatile Disk (DVD)), a smart card and a flash memory (forexample, an Erasable Programmable Read-Only Memory (EPROM), a card, astick or a key driver). In addition, various storage media described inthe disclosure may represent one or more pieces of equipment and/orother machine-readable media configured to store information. Term“machine-readable medium” may include, but not limited to, a wirelesschannel and various other media capable of storing, including and/orbearing instructions and/or data.

FIG. 1 is a schematic diagram illustrating a handover process of amobile station according to an embodiment of the disclosure. As shown inFIG. 1, a first network AP 100, a second network AP 200 and a mobilestation 300 are included.

Here, the first network AP 100 and the second network AP 200 maycommunicate through a cellular link, and for example, communicatethrough a communication interface between the first network AP 100 andthe second network AP 200. Here, the communication interface may be anX2 interface.

The mobile station 300 may be in a fast moving state. For example, themobile station 300 is initially located within coverage of a network ofthe first network AP 100, and may directly communicate with the firstnetwork AP 100. Subsequently, the mobile station 300 moves fast andgradually enters coverage of a network of the second network AP 200. Inthis process, the mobile station 300 requires handover of acorresponding transmission resource, which may cause a longertransmission delay.

According to the embodiment of the disclosure, the characteristic ofpredictability of movement of the mobile station is utilized, and ahandover resource is coordinated between the network APs in advance tofacilitate use of the mobile station over the handover resource in ahandover process, so that a handover interruption time may be reduced.

It is to be understood that conditions, manners and the like in theembodiment of the disclosure are divided only for convenient descriptionand should not form specific limits and characteristics in eachcondition and manner may be combined without conflicts.

FIG. 2 is a schematic flowchart illustrating an example of a resourceconfiguration method for handover according to an embodiment of thedisclosure. The method shown in FIG. 2 is executed by a first networkAP, and includes the following operations.

In S110, the first network AP determines handover resource configurationinformation with a second network AP.

Here, the handover resource configuration information may include atleast one of: location information of a physical time-frequency resourceblock, modulation and coding scheme information, configurationinformation of a reference signal or antenna configuration information.

The handover resource configuration information may further includetime-frequency resource configuration information, a transmissionbandwidth and the like, which will not be listed one by one herein.

Optionally, the handover resource configuration information includesconfiguration information of a handover resource used for handover of aserving network AP from the first network AP to the second network AP;and/or the handover resource configuration information includesconfiguration information of a handover resource used for handover ofthe serving network AP from the first network AP to the first network APand the second network AP; and/or the handover resource configurationinformation includes configuration information of a handover resource ofthe first network AP.

It can be understood that at least one other network AP may be deployedaround the first network AP, and the first network AP may directlycommunicate with the at least one other network AP through acommunication interface (for example, an X2 interface).

As a first condition, if there is only one other network AP, i.e., thesecond network AP, around the first network AP, the first network AP isonly required to determine the handover resource configurationinformation with the second network AP in S110.

Optionally, the first network AP may perform coordination with thesecond network AP through the communication interface to determine thehandover resource configuration information.

Here, the first network AP is synchronized with the second network AP,or there is a first fixed timing offset value between the first networkAP and the second network AP.

The first network AP may perform resource coordination with the secondnetwork AP to determine a handover resource pool in a negotiationmanner. For example, a first handover resource pool and a secondhandover resource pool may be determined, wherein the first handoverresource pool may subsequently be sent to the mobile station by thefirst network AP to enable the mobile station to use a handover resourcein the first handover resource pool in a process of handover from thefirst network AP to the second network AP, wherein the second handoverresource pool may subsequently be sent to the mobile station by thesecond network AP to enable the mobile station to use a handoverresource in the second handover resource pool in a process of handoverfrom the second network AP to the first network AP.

In such a manner, the handover resource used by the mobile stationhanded over from the first network AP to the second network AP isdifferent from the handover resource used by the mobile station handedover from the second network AP to the first network AP as much aspossible, so that a resource conflict between different mobile stationsin the handover process may be avoided, resource contention may bereduced, and data transmission efficiency of the mobile station in thehandover process may be ensured better.

As a second condition, if there are multiple (namely at least two) othernetwork APs (including the second network AP) around the first networkAP, the first network AP may determine handover resource configurationinformation with the multiple network APs in S110, wherein the multiplenetwork APs include the second network AP.

Optionally, the first network AP may perform coordination with themultiple network APs through communication interfaces therebetween todetermine the corresponding handover resource configuration information.

As an embodiment, the first network AP may determine common handoverresource configuration information with the multiple network APs. Atthis moment, the first network AP determines a group of handoverresource configuration information.

As another embodiment, the first network AP may determine handoverresource configuration information with each network AP respectively. Atthis moment, the first network AP determines multiple groups of handoverresource configuration information corresponding to the multiple networkAPs one to one.

In S120, the first network AP sends the handover resource configurationinformation to a mobile station.

In the embodiment of the disclosure, the first network AP may send thehandover resource configuration information to the mobile stationthrough a system information broadcast. or the first network AP may sendthe handover resource configuration information to the mobile stationthrough control signaling.

Here, the control signaling may be physical-layer control signaling, andfor example, is a PDCCH.

Here, the first network AP is synchronized with the mobile station. orthere is a second fixed timing offset value between the first network APand the mobile station.

Optionally, as an embodiment, the handover resource configurationinformation may be sent to the mobile station when the mobile stationaccesses to the first network AP. For example, the handover resourceconfiguration information may be sent to the mobile station in a processof random access of the mobile station to the first network AP.

Optionally, as another embodiment, the handover resource configurationinformation may be sent to the mobile station after the mobile stationaccesses to the first network AP. For example, the handover resourceconfiguration information may be sent to the mobile station after theprocess of random access of the mobile station to the first network APis completed.

Optionally, as another embodiment, the handover resource configurationinformation may be sent to the mobile station when it is determined thatthe mobile station will be handed over from the first network AP to thesecond network AP.

Correspondingly, it can be understood that, before S120, the firstnetwork AP may judge whether the mobile station will be handed over, andfor example, judges whether the mobile station will be handed over fromthe first network AP to the second network AP or not.

For example, whether the mobile station will be handed over may bejudged according to strength of a measurement signal reported by themobile station. or whether the mobile station will be handed over may bejudged according to a moving trajectory of the mobile station. orwhether the mobile station will be handed over may be judged accordingto the moving trajectory and moving speed of the mobile station.

It is to be noted that, if the multiple groups of handover resourceconfiguration information corresponding to the multiple network APs oneto one are determined in S110, the handover resource configurationinformation sent to the mobile station by the first network AP in S120should further include identification information of the correspondingnetwork APs.

Optionally, the first network AP may further send second indicationinformation to the mobile station, and the second indication informationincludes at least one of: synchronization information between the firstnetwork AP and the second network AP, speed information of the mobilestation or moving trajectory information of the mobile station. Here,the synchronization information includes uplink synchronizationinformation and downlink synchronization information. Therefore, themobile station may further determine uplink synchronization informationof the second network AP after acquiring the uplink synchronizationinformation, the downlink synchronization information, the speedinformation, the moving trajectory information and the like.

Here, the synchronization information between the first network AP andthe second network AP may include the first timing offset value.Therefore, the mobile station may acquire synchronization information ofthe second network AP on the basis of the first timing offset value inthe synchronization information and a synchronization relationshipbetween the mobile station and the first network AP.

In S130, the first network AP receives handover indication informationsent to the first network AP by the mobile station.

Here, the handover indication information is configured to indicate thatthe mobile station will be handed over. Optionally, the handoverindication information is indicated by one or more reserved informationbits of physical-layer control signaling; or the handover indicationinformation is indicated by MAC-layer signaling; or the handoverindication information is indicated by RRC signaling.

It is to be noted that, in the embodiment of the disclosure, that thehandover indication information is configured to indicate that themobile station will be handed over may include the following conditions.

1: the mobile station will perform network AP handover.

It is to be noted that, in the embodiment of the disclosure, the firstcondition may at least include the following two conditions.

1a: the mobile station is required to be handed over from a presentnetwork AP to another network AP and is disconnected from the presentnetwork AP.

For example, the mobile station communicates with the first network APat present, and the handover indication information may be configured toindicate that the mobile station will communicate with the other networkAP.

1b: the mobile station is required to be handed over from the presentnetwork AP to the present network AP and the other network AP.

For example, the mobile station communicates with the first network APat present, and the handover indication information may be configured toindicate that the mobile station will communicate with the first networkAP and the other network AP.

2: the mobile station will perform network AP resource handover.

For example, if the mobile station uses a first resource of the firstnetwork AP at present, the handover indication information is configuredto indicate that the mobile station will use another resource of thefirst network AP.

In the embodiment of the disclosure, the characteristic of predictabledirectionality of movement of the mobile station is utilized, a conceptof handover resource configuration information is introduced, thehandover resource is coordinated between the network APs in advance, andwhen the mobile station requires handover, the handover resourceconfiguration information may be used for handover, so that a handoverinterruption time is reduced. Furthermore, the mobile station may notifythe first network AP that the mobile station will be handed over throughthe handover indication information, such a manner is higher inflexibility, the mobile station may be handed over when being required,handover efficiency may be improved, the handover interruption time maybe shortened, and meanwhile, the method may improve a user experience.

Optionally, in the embodiment of the disclosure, the first network APmay send first indication information to the mobile station afterreceiving the handover indication information. The first indicationinformation may be configured to indicate the mobile station tocommunicate with the first network AP and/or the second network AP byusing a configuration indicated by the handover resource configurationinformation (wherein, the handover resource configuration informationmay include the handover resource and a related parameter).

It is to be noted that, in the embodiment of the disclosure, thehandover indication information may include handover of multipleconditions mentioned above, and correspondingly, the first indicationinformation may be configured to respond to the handover indicationinformation. The embodiment of the disclosure will be described belowwith the condition that the handover indication information indicatesthat the mobile station will perform network AP handover as an examplein detail.

In the embodiment of the disclosure, there is made such a hypothesisthat the mobile station will perform network AP handover, wherein atarget network AP for handover may be determined by the mobile stationand may also be determined by the first network AP.

(1) The mobile station determines that the mobile station will be handedover to the second network AP (i.e., the target network AP).

Optionally, the first network AP may also receive identificationinformation of the second network AP from the mobile station. The firstnetwork AP may determine that the mobile station will be handed over tothe second network AP according to the identification information andthe handover indication information.

Here, the identification information and the handover indicationinformation may be born in the same message and may be born in twomessages, which will not be limited in the embodiment of the disclosure.

Optionally, if the first network AP also receives the identificationinformation, the first indication information mentioned above may beAcknowledgement (ACK) feedback information.

The first network AP may execute a related operation, for example, anoperation of notifying the second network AP to be prepared for accessof the mobile station, after acquiring that the mobile station will behanded over to the second network AP.

(2) The first network AP determines that the mobile station will behanded over to the second network AP.

Specifically, after the first network AP receives the handoverindication information, first network equipment learns about that themobile station has a network AP handover requirement, and the firstnetwork equipment may determine the target AP.

For example, it is determined that the mobile station will be handedover from the first network AP to the second network AP according to themoving trajectory of the mobile station.

For another example, it is determined that the mobile station will behanded over from the first network AP to the second network AP accordingto the strength of the measurement signal reported by the mobilestation.

For another example, it is determined that the mobile station will behanded over from the first network AP to the second network AP accordingto the moving trajectory and moving speed of the mobile station.

The first network AP may notify the target AP to the mobile stationthrough the first indication information after determining the targetnetwork AP of the mobile station. In other words, when it is determinedthat the mobile station will be handed over from the first network AP tothe second network AP, the first network AP may send the firstindication information to the mobile station.

It is to be noted that, according to the method of the embodiment of thedisclosure, the first network AP may send the handover resourceconfiguration information to the mobile station in advance to enable themobile station to perform handover according to the configurationindicated by the handover resource configuration information when beingrequired to be handed over, so that the handover interruption time maybe reduced. Furthermore, whether the mobile station will be handed overmay be determined by the first network AP and may also be determined bythe mobile station. Correspondingly, the target network AP may bedetermined by the first network AP and may also be determined by themobile station. The solution is high in flexibility and favorable forhandover of the mobile station.

Optionally, the first indication information may be indicated by one ormore reserved information bits of the physical-layer control signaling;or the first indication information is indicated by a new allocatedRNTI; or the first indication information is indicated by a newphysical-layer control signaling format.

It is to be noted that, in the embodiment of the disclosure, thereserved information bit of the physical-layer control signaling mayrefer to a reserved field or reserved bit which is not used andspecifically defined in a physical-layer control signaling formatdefined in an existing protocol.

It is to be noted that, in the embodiment of the disclosure, the newphysical-layer control signaling format is different from thephysical-layer control signaling format defined in the existingprotocol, or may also be understood as a physical-layer controlsignaling format redefined in a future protocol.

It is to be noted that, in the embodiment of the disclosure, the newallocated RNTI is reallocated besides existing RNTIs, and the new RNTImay be specially configured to represent the first indicationinformation.

Optionally, the mobile station may communicate with the first network APand/or the second network AP via the handover resource indicated by thehandover resource configuration information received in S120 afterreceiving the first indication information.

Optionally, the first indication information may be sent to the mobilestation when it is determined that the mobile station will be handedover from the first network AP to the second network AP.

It is to be noted that, if the multiple groups of handover resourceconfiguration information corresponding to the multiple network APs oneto one are determined in S110, the multiple groups of handover resourceconfiguration information and the identification information of thecorresponding network APs are sent to the mobile station in S120. Then,the first indication information in S130 may include the identificationinformation of the network APs.

For example, the first indication information may include theidentification information of the second network AP. Then, afterreceiving the first indication information, the mobile station maydetermine the handover resource configuration information correspondingto the identification information according to the identificationinformation of the second network AP in the first indication informationand perform subsequent communication via the handover resource indicatedby the handover resource configuration information.

Optionally, after S130, the first network AP may receive uplink datasent by the mobile station via the handover resource.

For example, if the mobile station sends a plurality of uplink datapackets which are the same via the handover resource, the first networkAP may receive the plurality of uplink data packets which are the same,determine one of the plurality of uplink data packets as an uplinkreceived data packet and acquire uplink data in the uplink received datapacket.

Here, the first network AP may perform coordination with at least oneother network AP to receive the uplink data sent by the mobile stationvia the handover resource. Here, the at least one other network AP mayinclude the second network AP. That is, the first network AP may performcoordination with the second network AP and receive the uplink data sentby the mobile station via the handover resource.

It is to be noted that, when the first network AP performs coordinatedreceiving with the other network AP, locations and configurations ofphysical resources used when each network AP receives data packets arecompletely the same; or the locations and configurations of the physicalresources used when each network AP receives the data packets arecompletely staggered. Moreover, one data packet is subsequently selectedfrom the received data packets as a received data packet.

In a coordinated receiving process, the first network AP and the atleast one other network AP may use completely the same physical resourceconfiguration information, or the first network AP and the at least oneother network AP may use completely different physical resourceconfiguration information. Here, the at least one other network AP mayinclude the second network AP. That is, the first network AP and thesecond network AP may use completely the same or completely differentphysical resource configuration information.

Optionally, the first network AP may send downlink data to the mobilestation.

For example, the first network AP may send a plurality of downlink datapackets which are the same to the mobile station to enable the mobilestation to determine one of the plurality of downlink data packets as adownlink received data packet and acquire downlink data in the downlinkreceived data packet.

Specifically, in the process of handover of the mobile station from thefirst network AP to the second network AP, the first network AP may sendthe downlink data to the mobile station. Correspondingly, the mobilestation may receive the downlink data via the handover resource.

Here, the first network AP may perform coordination with at least oneother network AP to send the downlink data to the mobile station. Here,the at least one other network AP may include the second network AP.That is, the first network AP may perform coordination with the secondnetwork AP to send the downlink data to the mobile station.

It is to be noted that, when the first network AP performs coordinatedsending with the other network AP, each network AP sends the same datapacket and uses physical resources of which locations and configurationsare the same.

In a coordinated sending process, the first network AP and the at leastone other network AP may use completely the same physical resourceconfiguration information, or the first network AP and the at least oneother network AP may use completely different physical resourceconfiguration information. Here, the at least one other network AP mayinclude the second network AP. That is, the first network AP and thesecond network AP may use completely the same or completely differentphysical resource configuration information.

FIG. 3 is a schematic flowchart illustrating another example of aresource configuration method for handover according to anotherembodiment of the disclosure. The method shown in FIG. 3 is executed bya mobile station, and includes the following operations.

In S210, the mobile station acquires handover resource configurationinformation sent by a first network AP.

Here, the handover resource configuration information may include atleast one of: location information of a physical time-frequency resourceblock, modulation and coding scheme information, configurationinformation of a reference signal or antenna configuration information.

Optionally, the handover resource configuration information may be sentby the first network AP through a system information broadcast. or thehandover resource configuration information may be sent by the firstnetwork AP through control signaling, wherein the control signaling maybe physical downlink signaling, and for example, may be a PDCCH.

Here, the first network AP is synchronized with the mobile station, orthere is a second fixed timing offset value between the first network APand the mobile station.

Optionally, as an embodiment, the handover resource configurationinformation sent by the first network AP may be received when the mobilestation accesses to the first network AP.

Optionally, as another embodiment, the handover resource configurationinformation sent by the first network AP may be received after themobile station accesses to the first network AP.

Optionally, as another embodiment, the handover resource configurationinformation sent by the first network AP may be received when the mobilestation will be handed over from the first network AP to a secondnetwork AP.

S210 may refer to S120 in the embodiment of FIG. 2, and will not beelaborated herein to avoid repetitions.

In S220, the mobile station sends handover indication information to thefirst network AP, the handover indication information indicating thatthe mobile station will be handed over.

Specifically, the mobile station may send the handover indicationinformation to the first network AP to enable the first network AP tolearn about that the mobile station will be handed over, and then thefirst network AP may execute a related operation.

Optionally, if the mobile station determines that the mobile stationwill be handed over, the mobile station may send the handover indicationinformation to the first network AP, wherein the mobile station maydetermine whether the mobile station will be handed over in multiplemanners.

Optionally, if the mobile station receives the handover resourceconfiguration information sent by the first network AP, the mobilestation may determine that it will be handed over and send the handoverindication information to the first network AP.

For example, the mobile station determines whether the mobile stationwill be handed over according to a moving trajectory of the mobilestation.

For another example, the mobile station determines whether the mobilestation will be handed over according to strength of a signal receivedfrom the first network AP.

For another example, the mobile station determines whether the mobilestation will be handed over according to the moving trajectory andmoving speed of the mobile station.

Furthermore, the mobile station may further determine a target networkAP for handover when determining whether the mobile station will behanded over.

For example, the mobile station determines that the mobile station willbe handed over from the first network AP to a second network APaccording to the moving trajectory of the mobile station.

For another example, the mobile station determines that the mobilestation will be handed over from the first network AP to the secondnetwork AP according to the strength of the signal of the first networkAP and strength of a signal of the second network AP.

Optionally, the mobile station may further receive first indicationinformation sent by the first network AP, and the first indicationinformation is configured to indicate the mobile station to startcommunicating with the first network AP and/or the second network AP byusing a configuration indicated by the handover resource configurationinformation.

Optionally, the first indication information may be indicated by one ormore reserved information bits of physical-layer control signaling; orthe first indication information is indicated by a new allocated RNTI;or the first indication information is indicated by a new physical-layercontrol signaling format.

Optionally, the physical-layer control signaling may be a PDCCH.

Specifically, the first indication information sent by the first networkAP is received when the mobile station will be handed over from thefirst network AP to the second network AP.

Optionally, the first indication information may further includeidentification information of the network AP corresponding to thehandover resource.

S220 may refer to S130 in the embodiment of FIG. 2, and will not beelaborated herein to avoid repetitions.

Optionally, the method may further include that: the mobile stationreceives second indication information sent by the first network AP. Thesecond indication information includes at least one of: synchronizationinformation between the first network AP and the second network AP,speed information of the mobile station or moving trajectory informationof the mobile station. Furthermore, the mobile station acquires uplinksynchronization information of the second network AP according to thesecond indication information.

In S230, the mobile station communicates with the first network APand/or a second network AP by using a configuration indicated by thehandover resource configuration information.

Optionally, the mobile station receives the first indicationinformation, which is sent by the first network AP according to thehandover indication information, the first indication informationindicating the mobile station to communicate with the first network APand/or the second network AP by using the configuration indicated by thehandover resource configuration information; and the operation that themobile station communicates with the first network AP and/or the secondnetwork AP by using the configuration indicated by the handover resourceconfiguration information includes that: the mobile station communicateswith the first network AP and/or the second network AP by using theconfiguration indicated by the handover resource configurationinformation according to the first indication information.

Optionally, the mobile station starts using a handover resourceindicated by the handover resource configuration information received inS120 after receiving the first indication information. It can beunderstood that, if the first indication information includes theidentification information of the network AP, the mobile station usesthe handover resource indicated by the handover resource configurationinformation corresponding to the identification information.

Optionally, the mobile station sends identification information of thesecond network AP to the first network AP such that the first network APdetermines that the mobile station will be handed over to the secondnetwork AP according to the identification information and the handoverindication information. A specific description about the solution mayrefer to a related description made above and will not be elaboratedherein for simplicity.

Optionally, the mobile station may send uplink data via the handoverresource.

For example, the mobile station sends a plurality of uplink data packetswhich are the same via the handover resource to enable the first networkAP and/or the second network AP to receive the plurality of uplink datapackets which are the same, determine one of the plurality of uplinkdata packets as an uplink received data packet and acquire uplink datain the uplink received data packet.

As an example, the mobile station may adopt a preset CP value to sendthe uplink data via the handover resource to enable the uplink data toreach the first network AP and the second network AP at the same time,wherein the preset CP value is larger than a fixed threshold value.

Therefore, the mobile station may use a CP with a larger length toensure that the uplink data reaches the first network AP and the secondnetwork AP at the same time.

Optionally, the mobile station may receive downlink data via thehandover resource.

Here, the downlink data may be sent by the first network AP or thesecond network AP. or here, the downlink data may also be sent by thefirst network AP and the second network AP in a coordinated manner.

For example, the mobile station may receive a plurality of downlink datapackets which are the same from the first network AP and/or the secondnetwork AP, determine one of the plurality of downlink data packetswhich are the same, as a downlink received data packet and acquiredownlink data in the downlink received data packet.

S230 may refer to a related description about communication after S130in the embodiment of FIG. 2 and will not be elaborated herein to avoidrepetitions.

It is to be noted that related descriptions in the embodiment of FIG. 2may refer to related descriptions in the embodiment of FIG. 1 and willnot be elaborated herein for simplicity.

FIG. 4 is a schematic flowchart illustrating another example of aresource configuration method for handover according to an embodiment ofthe disclosure. A first network AP 100, a second network AP 200 and amobile station 300 are shown in FIG. 4. The method shown in FIG. 4includes the following operations.

In S310, the first network AP 100 determines handover resourceconfiguration information with the second network AP 200.

Optionally, the first network AP may perform coordination with thesecond network AP through a communication interface to determine thehandover resource configuration information.

S310 in FIG. 4 may refer to S110 in the embodiment of FIG. 2, and willnot be elaborated herein to avoid repetitions.

In S320, the first network AP 100 sends the handover resourceconfiguration information to the mobile station 300.

Optionally, the handover resource configuration information may be sentto the mobile station 300 through a system information broadcast orcontrol signaling.

S320 in FIG. 4 may refer to S120 in the embodiment of FIG. 2 or S210 inthe embodiment of FIG. 3, and will not be elaborated herein to avoidrepetitions.

In S330, the first network AP 100 receives handover indicationinformation from the mobile station 300, the handover indicationinformation indicating that the mobile station 300 will be handed over.

S330 in FIG. 4 may refer to S130 in the embodiment of FIG. 2 or S220 inthe embodiment of FIG. 3, and will not be elaborated herein to avoidrepetitions.

Optionally, in S340, the first network AP 100 sends first indicationinformation to the mobile station 300, the first indication informationindicating the mobile station 300 to start using a handover resource.

Optionally, the first indication information may be sent when the mobilestation 300 accesses to the first network AP 100, or after access of themobile station 300 to the network of the first network AP 100 or when itis determined that the mobile station 300 will be handed over from thefirst network AP 300 to the second network AP 200.

S340 in FIG. 4 may refer to related descriptions about the firstindication information in the embodiment of FIG. 2 or FIG. 3, and willnot be elaborated herein to avoid repetitions.

In S350, the mobile station 300 communicates with the first network APand/or the second network AP by using a configuration indicated by thehandover resource configuration information.

Optionally, the mobile station 300 may send uplink data or receivedownlink data sent by the first network AP 100 and/or the second networkAP 200 via the handover resource.

S350 in FIG. 4 may refer to related descriptions in the embodiments ofFIG. 2 and FIG. 3, and will not be elaborated herein to avoidrepetitions.

Furthermore, it is to be understood that, due to fast movement of themobile station 300, the mobile station 300 may execute a random accessprocess with the second network AP 200 and communicate according to acellular link transmission resource allocated by the second network AP200 after the mobile station 300 moves into coverage of a network of thesecond network AP 200. Moreover, the second network AP 200 may alsosimilarly determine handover resource configuration information withanother network AP and send the determined handover resourceconfiguration information to the mobile station 300. A subsequentprocess is similar to a process executed by the first network AP andshown in FIG. 2, and will not be elaborated herein.

The mobile station in the embodiment of the disclosure may be terminalequipment in V2X, then the characteristic of predictable directionalityof movement of the V2X mobile station may be utilized, a concept ofhandover resource is introduced, the handover resource is coordinatedbetween the network APs in advance, and when the V2X mobile stationrequires handover, the handover resource may be used for handover. Insuch a manner, a target cell (i.e., the second network AP) may beconfigured before handover of the V2X mobile station, thereby reducing ahandover interruption time.

FIG. 5 is a schematic block diagram illustrating an example of a networkAP according to an embodiment of the disclosure. The network AP 10 shownin FIG. 5 is a first network AP, and includes a determination unit 101,a sending unit 102 and a receiving unit 103.

The determination unit 101 is configured to determine handover resourceconfiguration information with a second network AP. The sending unit 102is configured to send the handover resource configuration informationdetermined by the determination unit 101 to a mobile station. Thereceiving unit 102 is configured to receive handover indicationinformation from the mobile station, the handover indication informationindicating that the mobile station will be handed over.

Optionally, the sending unit 102 is further configured to send firstindication information to the mobile station, the first indicationinformation indicating the mobile station to communicate with the firstnetwork AP and/or the second network AP by using a configurationindicated by the handover resource configuration information.

Optionally, the receiving unit 103 is further configured to receiveidentification information of the second network AP from the mobilestation; and the determination unit 101 is further configured todetermine that the mobile station will be handed over to the secondnetwork AP according to the handover indication information and theidentification information.

Optionally, the sending unit 102 is specifically configured to, when thedetermination unit 101 determines that the mobile station will be handedover from the first network AP to the second network AP, send the firstindication information to the mobile station.

Optionally, the determination unit 101 is further configured todetermine that the mobile station will be handed over from the firstnetwork AP to the second network AP according to a moving trajectory ofthe mobile station, determine that the mobile station will be handedover from the first network AP to the second network AP according tostrength of a measurement signal reported by the mobile station, anddetermine that the mobile station will be handed over from the firstnetwork AP to the second network AP according to the moving trajectoryand moving speed of the mobile station.

Optionally, the first indication information is indicated by one or morereserved information bits of physical-layer control signaling; or thefirst indication information is indicated by a new allocated RNTI; orthe first indication information is indicated by a new physical-layercontrol signaling format.

Optionally, the handover indication information is indicated by one ormore reserved information bits of the physical-layer control signaling;or the handover indication information is indicated by MAC-layersignaling; or the handover indication information is indicated by RRCsignaling.

Optionally, the determination unit 101 is specifically configured toperform coordination with the second network AP through a communicationinterface between the first network AP and the second network AP todetermine the handover resource configuration information.

Optionally, the handover resource configuration information includes atleast one of: location information of a physical time-frequency resourceblock, modulation and coding scheme information, configurationinformation of a reference signal or antenna configuration information.

Optionally, the sending unit 102 is specifically configured to: when themobile station accesses to the first network AP, send the handoverresource configuration information to the mobile station; or after themobile station accesses to the first network AP, send the handoverresource configuration information to the mobile station; or when it isdetermined that the mobile station will be handed over from the firstnetwork AP to the second network AP, send the handover resourceconfiguration information to the mobile station.

Optionally, the sending unit 102 is specifically configured to send thehandover resource configuration information to the mobile stationthrough a system information broadcast, or send the handover resourceconfiguration information to the mobile station through controlsignaling.

Optionally, the receiving unit 103 is further configured to receiveuplink data sent by the mobile station via the handover resource.

Optionally, the receiving unit 103 is specifically configured to performcoordination with at least one other network AP to receive the uplinkdata sent by the mobile station via the handover resource.

Optionally, the receiving unit 103 is specifically configured to use, bythe first network AP physical resource configuration information, whichis completely the same as or completely different from physical resourceconfiguration information of the at least one other network AP, toreceive the uplink data sent by the mobile station via the handoverresource.

Optionally, the at least one other network AP includes the secondnetwork AP.

Optionally, the receiving unit 103 is specifically configured to receivea plurality of uplink data packets which are the same from the mobilestation, determine one of the plurality of uplink data packets as anuplink received data packet and acquire uplink data in the uplinkreceived data packet.

Optionally, the sending unit 102 is further configured to send downlinkdata to the mobile station.

Optionally, the sending unit 102 is specifically configured to performcoordination with at least one other network AP to send the downlinkdata to the mobile station.

Optionally, the sending unit 102 is specifically configured to use, bythe first network AP physical resource configuration information, whichis completely the same as or completely different from physical resourceconfiguration information of the at least one other network AP, to sendthe downlink data to the mobile station.

Optionally, the at least one other network AP includes the secondnetwork AP.

Optionally, the sending unit 102 is specifically configured to send aplurality of downlink data packets which are the same to the mobilestation to enable the mobile station to determine one of the pluralityof downlink data packets as a downlink received data packet and acquiredownlink data in the downlink received data packet.

Optionally, the first network AP is synchronized with the second networkAP, or there is a first fixed timing offset value between the firstnetwork AP and the second network AP.

Optionally, the first network AP is synchronized with the mobilestation, or there is a second fixed timing offset value between thefirst network AP and the mobile station.

Optionally, the sending unit 102 is further configured to send secondindication information to the mobile station, wherein the secondindication information includes at least one of: synchronizationinformation between the first network AP and the second network AP,speed information of the mobile station or moving trajectory informationof the mobile station.

Here, the handover resource configuration information includes at leastone of: the location information of the physical time-frequency resourceblock, the modulation and coding scheme information, the configurationinformation of the reference signal and the antenna configurationinformation.

Here, the first network AP is synchronized with the second network AP,or there is the first fixed timing offset value between the firstnetwork AP and the second network AP.

Here, the first network AP is synchronized with the mobile station, orthere is the second fixed timing offset value between the first networkAP and the mobile station.

It is to be noted that, in the embodiment of the disclosure, thedetermination unit 101 may be implemented by a processor, the sendingunit 102 may be implemented by a sender and the receiving unit 103 maybe implemented by a receiver. FIG. 6 is a schematic block diagramillustrating another example of a network AP according to an embodimentof the disclosure. As shown in FIG. 6, a network AP 11 may include aprocessor 111, a receiver 112, a sender 113 and a memory 114, whereinthe memory 114 may be configured to store signaling, information and thelike, and may also be configured to store a code executed by theprocessor 111 and the like.

Each component in the network AP 11 forms communication connections, andfor example, the processor 111, the memory 114 and an interface mutuallycommunicate and transmit control and/or data signals through internalconnection paths.

The network AP 10 shown in FIG. 5 or the network AP 11 shown in FIG. 6may implement each process implemented by the first network AP in themethod embodiments of FIG. 2 to FIG. 4, which will not be elaboratedherein to avoid repetition.

FIG. 7 is a schematic block diagram illustrating a mobile stationaccording to an embodiment of the disclosure. The mobile station 20shown in FIG. 7 includes an acquisition unit 201, a receiving unit 202and a communication unit 203.

The acquisition unit 201 is configured to acquire handover resourceconfiguration information sent by a first network AP.

A sending unit is configured to send handover indication information tothe first network AP, the handover indication information indicatingthat the mobile station will be handed over.

The communication unit 203 is configured to communicate with the firstnetwork AP and/or a second network AP by using a configuration indicatedby the handover resource configuration information.

Optionally, the mobile station further includes the receiving unit 202,configured to receive first indication information sent by the firstnetwork AP, the first indication information indicating the mobilestation to use a handover resource indicated by the handover resourceconfiguration information acquired by the acquisition unit 201; and thecommunication unit 203 is specifically configured to communicate withthe first network AP and/or the second network AP by using theconfiguration indicated by the handover resource configurationinformation according to the first indication information.

Optionally, the sending unit is further configured to sendidentification information of the second network AP to the first networkAP such that the first network AP determines that the mobile stationwill be hand over to the second network AP according to theidentification information and the handover indication information.

Optionally, the sending unit is specifically configured to, if themobile station determines that the mobile station will be handed over,send the handover indication information to the mobile station.

Optionally, the mobile station further includes a determination unitconfigured to: determine whether the mobile station will be handed overaccording to a moving trajectory of the mobile station; or determinewhether the mobile station will be handed over according to strength ofa signal received from the first network AP; or determine whether themobile station will be handed over according to the moving trajectoryand moving speed of the mobile station.

Optionally, the first indication information is indicated by one or morereserved information bits of physical-layer control signaling; or thefirst indication information is indicated by a new allocated RNTI; orthe first indication information is indicated by a new physical-layercontrol signaling format.

Optionally, the handover indication information is indicated by one ormore reserved information bits of the physical-layer control signaling;or the handover indication information is indicated by MAC-layersignaling; or the handover indication information is indicated by RRCsignaling.

Optionally, the acquisition unit 201 includes a first receiving subunitconfigured to: when the mobile station accesses to the first network AP,receive the handover resource configuration information sent by thefirst network AP; or after the mobile station accesses to the firstnetwork AP, receive the handover resource configuration information sentby the first network AP; or when the mobile station will be handed overfrom the first network AP to the second network AP, receive the handoverresource configuration information sent by the first network AP.

Optionally, the handover resource configuration information is sent bythe first network AP through a system information broadcast; or thehandover resource configuration information is sent by the first networkAP through control signaling. Optionally, the communication unit 203includes a sending subunit configured to send uplink data via thehandover resource to enable the first network AP and/or the secondnetwork AP to receive the uplink data.

Optionally, the sending subunit is specifically configured to adopt apreset CP value to send the uplink data via the handover resource toenable the uplink data to reach the first network AP and the secondnetwork AP at the same time, wherein the preset CP value is larger thana fixed threshold value.

Optionally, the communication unit 203 includes a second receivingsubunit configured to receive downlink data sent by the first network APand/or the second network AP via the handover resource.

Optionally, the communication unit 203 further includes a determinationsubunit and an acquisition subunit. The second receiving subunit isspecifically configured to receive a plurality of downlink data packetswhich are the same from the first network AP and/or the second networkAP. The determination subunit is configured to determine one of theplurality of downlink data packets which are the same and received bythe second receiving subunit, as a downlink received data packet. Theacquisition subunit is configured to acquire downlink data in thedownlink received data packet determined by the determination subunit.

Optionally, the mobile station is synchronized with the first networkAP, or there is a second fixed timing offset value between the mobilestation and the first network AP.

Optionally, the handover resource configuration information includes atleast one of: location information of a physical time-frequency resourceblock, modulation and coding scheme information, configurationinformation of a reference signal or antenna configuration information.

Optionally, the receiving unit 202 is further configured to receivesecond indication information sent by the first network AP, the secondindication information including at least one of: synchronizationinformation between the first network AP and the second network AP,speed information of the mobile station or moving trajectory informationof the mobile station; and acquire uplink synchronization information ofthe second network AP according to the second indication information.

It is to be noted that, in the embodiment of the disclosure, theacquisition unit 201, the receiving unit 202, the acquisition subunit,the first receiving subunit and the second receiving subunit may beimplemented by a receiver, the communication unit 203 and thedetermination subunit may be implemented by a processor and the sendingsubunit may be implemented by a sender. FIG. 8 is a schematic blockdiagram illustrating another example of a mobile station according to anembodiment of the disclosure. As shown in FIG. 8, a mobile station 21may include a processor 211, a receiver 212, a sender 213 and a memory214, wherein the memory 214 may be configured to store signaling,information and the like, and may also be configured to store a codeexecuted by the processor 211 and the like.

Each component in the mobile station 21 forms communication connections,and for example, the processor 211, the memory 214 and an interfacemutually communicate and transmit control and/or data signals throughinternal connection paths.

The mobile station 20 shown in FIG. 7 or the mobile station 21 shown inFIG. 8 may implement each process implemented by the mobile station inthe method embodiments of FIG. 2 to FIG. 4, which will not be elaboratedherein to avoid repetition.

It can be understood that the processor may be an integrated circuitchip with a signal processing capability. In an implementation process,each step of the method embodiments may be completed by an integratedlogical circuit of hardware in the processor or an instruction in asoftware form. The processor may be a universal processor, a DigitalSignal Processor (DSP), an Application Specific Integrated Circuit(ASIC), a Field Programmable Gate Array (FPGA) or another programmablelogical device, discrete gate or transistor logical device and discretehardware component. Each method, step and logical block diagramdisclosed in the embodiments of the disclosure may be implemented orexecuted. The universal processor may be a microprocessor or theprocessor may also be any conventional processor and the like. The stepsof the methods disclosed in combination with the embodiments of thedisclosure may be directly embodied to be executed and completed by ahardware decoding processor or executed and completed by a combinationof hardware and software modules in the decoding processor. The softwaremodule may be located in a mature storage medium in this field such as aRandom Access Memory (RAM), a flash memory, a Read-Only Memory (ROM), aProgrammable ROM (PROM) or Electrically Erasable PROM (EEPROM) and aregister. The storage medium is located in a memory, and the processorreads information in the memory, and completes the steps of the methodsin combination with hardware.

It can be understood that the memory in the embodiment of the disclosuremay be a volatile memory or a nonvolatile memory, or may include boththe volatile and nonvolatile memories, wherein the nonvolatile memorymay be a ROM, a PROM, an EPROM, an EEPROM or a flash memory. Thevolatile memory may be a RAM, and is used as an external high-speedcache. It is exemplarily but unlimitedly described that RAMs in variousforms may be adopted, such as a Static RAM (SRAM), a Dynamic RAM (DRAM),a Synchronous DRAM (SDRAM), a Double Data Rate SDRAM (DDRSDRAM), anEnhanced SDRAM (ESDRAM), a Synchlink DRAM (SLDRAM) and a Direct RambusRAM (DR RAM). It is to be noted that the memory of a system and methoddescribed in the disclosure is intended to include, but not limited to,memories of these and any other proper types.

Those of ordinary skilled in the art may realize that the units andalgorithm steps of each example described in combination with theembodiments disclosed in the disclosure may be implemented by electronichardware or a combination of computer software and the electronichardware. Whether these functions are executed in a hardware or softwaremanner depends on specific applications and design constraints of thetechnical solutions. Professionals may realize the described functionsfor each specific application by virtue of different methods, but suchrealization shall fall within the scope of the disclosure.

Those skilled in the art may clearly learn about that specific workingprocesses of the system, device and unit described above may refer tothe corresponding processes in the method embodiment and will not beelaborated herein for convenient and brief description.

In some embodiments provided by the application, it is to be understoodthat the disclosed system, device and method may be implemented inanother manner. For example, the device embodiment described above isonly schematic, and for example, division of the units is only logicfunction division, and other division manners may be adopted duringpractical implementation. For example, multiple units or components maybe combined or integrated into another system, or some characteristicsmay be neglected or not executed. In addition, coupling or directcoupling or communication connection between each displayed or discussedcomponent may be indirect coupling or communication connection,implemented through some interfaces, of the device or the units, and maybe electrical and mechanical or adopt other forms.

The units described as separate parts may or may not be physicallyseparated, and parts displayed as units may or may not be physicalunits, and namely may be located in the same place, or may also bedistributed to multiple network units. Part or all of the units may beselected to achieve the purpose of the solutions of the embodiments ofthe disclosure according to a practical requirement.

In addition, each function unit in various embodiments of the disclosuremay be integrated into a processing unit, each unit may also existindependently, and two or more than two unit may also be integrated intoa unit.

When being implemented in form of software function unit and sold orused as an independent product, the function may also be stored in acomputer-readable storage medium. Based on such an understanding, thetechnical solutions of the disclosure substantially or parts makingcontributions to the conventional art or part of the technical solutionsmay be embodied in form of software product, and the computer softwareproduct is stored in a storage medium, including a plurality ofinstructions configured to enable a piece of computer equipment (whichmay be a personal computer, a server, network equipment or the like) toexecute all or part of the steps of the method in each embodiment of thedisclosure. The abovementioned storage medium includes various mediacapable of storing program codes such as a U disk, a mobile hard disk, aROM, a RAM, a magnetic disk or an optical disk.

The above is only the specific implementation of the disclosure and notintended to limit the scope of protection of the disclosure. Anyvariations or replacements apparent to those skilled in the art withinthe technical scope disclosed by the disclosure shall fall within thescope of protection of the disclosure. Therefore, the scope ofprotection of the disclosure shall be subject to the scope of protectionof the claims.

1. A resource configuration method for handover, comprising:determining, by a first network node, handover resource configurationinformation with a second network node; sending, by the first networknode, the handover resource configuration information to a mobilestation; and receiving, by the first network node, handover indicationinformation from the mobile station, the handover indication informationindicating that the mobile station will be handed over.
 2. The method asclaimed in claim 1, wherein after receiving, by the first network node,the handover indication information from the mobile station, the methodfurther comprises: sending, by the first network node, first indicationinformation to the mobile station, the first indication informationindicating the mobile station to communicate with the first network nodeand/or the second network node by using a configuration indicated by thehandover resource configuration information, and wherein sending, by thefirst network node, the first indication information to the mobilestation comprises: when it is determined that the mobile station will behanded over from the first network node to the second network node,sending the first indication information to the mobile station.
 3. Themethod as claimed in claim 1, further comprising: receiving, by thefirst network node, identification information of the second networknode sent by the mobile station; and determining, by the first networknode, that the mobile station will be handed over to the second networknode according to the handover indication information and theidentification information.
 4. (canceled)
 5. The method as claimed inclaim 2, wherein before sending the first indication information to themobile station, the method further comprises: determining that themobile station will be handed over from the first network node to thesecond network node according to a moving trajectory of the mobilestation; determining that the mobile station will be handed over fromthe first network node to the second network node according to strengthof a measurement signal reported by the mobile station; and determiningthat the mobile station will be handed over from the first network nodeto the second network node according to the moving trajectory and movingspeed of the mobile station.
 6. (canceled)
 7. The method as claimed inclaim 1, wherein the handover indication information is indicated by oneor more reserved information bits of physical-layer control signaling;or the handover indication information is indicated by Media AccessControl (MAC)-layer signaling; or the handover indication information isindicated by Radio Resource Control (RRC) signaling.
 8. The method asclaimed in claim 1, wherein determining, by the first network node, thehandover resource configuration information with the second network nodecomprises: performing, by the first network node, coordination with thesecond network node through a communication interface between the firstnetwork node and the second network node to determine the handoverresource configuration information.
 9. The method as claimed in claim 1,wherein the handover resource configuration information comprises atleast one of: location information of a physical time-frequency resourceblock, modulation and coding scheme information, configurationinformation of a reference signal or antenna configuration information.10. The method as claimed in claim 1, wherein sending, by the firstnetwork node, the handover resource configuration information to themobile station comprises: when the mobile station accesses to the firstnetwork node, sending the handover resource configuration information tothe mobile station; or after the mobile station accesses to the firstnetwork node, sending the handover resource configuration information tothe mobile station; or when it is determined that the mobile stationwill be handed over from the first network node to the second networknode, sending the handover resource configuration information to themobile station.
 11. The method as claimed in claim 1, wherein sendingthe handover resource configuration information to the mobile stationcomprises: sending the handover resource configuration information tothe mobile station through a system information broadcast; or sendingthe handover resource configuration information to the mobile stationthrough control signaling.
 12. The method as claimed in claim 1, furthercomprising: receiving uplink data sent by the mobile station via thehandover resource.
 13. The method as claimed in claim 12, whereinreceiving the uplink data sent by the mobile station via the handoverresource comprises: performing, by the first network node, coordinationwith at least one other network node to receive the uplink data sent bythe mobile station via the handover resource.
 14. The method as claimedin claim 13, wherein the first network node and the at least one othernetwork node use completely the same or completely different physicalresource configuration information to receive the uplink data, which issent by the mobile station via the handover resource.
 15. (canceled) 16.The method as claimed in claim 12, wherein receiving the uplink data,which is sent by the mobile station via the handover resource comprises:receiving a plurality of uplink data packets which are the same from themobile station, determining one of the plurality of uplink data packetsas an uplink received data packet, and acquiring uplink data in theuplink received data packet.
 17. The method as claimed in claim 1,further comprising: sending, by the first network node, downlink data tothe mobile station.
 18. The method as claimed in claim 17, whereinsending the downlink data to the mobile station comprises: performing,by the first network node, coordination with at least one other networknode to send the downlink data to the mobile station. 19.-21. (canceled)22. The method as claimed in claim 1, wherein the first network node issynchronized with the second network node, or there is a first fixedtiming offset value between the first network AP and the second networknode. 23.-24. (canceled)
 25. A resource configuration method forhandover, comprising: acquiring, by a mobile station, handover resourceconfiguration information sent by a first network node; sending, by themobile station, handover indication information to the first networknode, the handover indication information indicating that the mobilestation will be handed over; and communicating, by the mobile station,with the first network node and/or a second network node by using aconfiguration indicated by the handover resource configurationinformation.
 26. The method as claimed in claim 25, further comprising:receiving, by the mobile station, first indication information, which issent by the first network node according to the handover indicationinformation, the first indication information indicating the mobilestation to communicate with the first network node and/or the secondnetwork node by using the configuration indicated by the handoverresource configuration information, wherein communicating, by the mobilestation, with the first network node and/or the second network node byusing the configuration indicated by the handover resource configurationinformation comprises: communicating, by the mobile station, with thefirst network node and/or the second network node by using theconfiguration indicated by the handover resource configurationinformation according to the first indication information.
 27. Themethod as claimed in claim 25, further comprising: sending, by themobile station, identification information of the second network node tothe first network node such that the first network node determines thatthe mobile station will be handed over to the second network nodeaccording to the identification information and the handover indicationinformation. 28.-40. (canceled)
 41. A network node, the network nodebeing a first network node and comprising: a determination unitconfigured to determine handover resource configuration information witha second network node; a sending unit configured to send the handoverresource configuration information determined by the determination unitto a mobile station; and a receiving unit configured to receive handoverindication information from the mobile station, the handover indicationinformation indicating that the mobile station will be handed over.42.-80. (canceled)